会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Direct injection type internal combustion engine control apparatus and control method of the same
    • 直喷式内燃机控制装置及其控制方法相同
    • US06474294B2
    • 2002-11-05
    • US09850266
    • 2001-05-08
    • Daichi YamazakiNaoki KurataMasanori Sugiyama
    • Daichi YamazakiNaoki KurataMasanori Sugiyama
    • F02B1700
    • F02D41/042F02D41/3029F02D41/3836F02D41/3845F02D2041/0015F02D2200/0404F02D2200/0406F02D2200/0602F02D2200/503F02D2200/602F02D2250/31F02N11/0814
    • A direct injection type internal combustion engine control apparatus is capable of increasing the frequency of performing the compression-stroke fuel injection following an automatic start of the engine by maintaining a sufficient fuel pressure for the compression-stroke injection even after the engine has been stopped by an automatic stop function. When an immediately-before-automatic-stop flag is “ON”, the control apparatus sets the control duty of an electromagnetic spill valve to 100 (%) to raise the fuel pressure immediately before the automatic stop. As a result, after the engine stops, the fuel pressure starts to decrease from a high pressure, so that there will be a long time before the fuel pressure decreases to a level that makes it impossible to perform appropriate fuel injection into the combustion chamber during the compression stroke. Therefore, the possibility of performance of the compression-stroke injection immediately following an automatic start is increased, and the frequency of performing the compression-stroke injection is increased. Thus, sufficient improvements in fuel economy and the like can be achieved.
    • 直喷式内燃机控制装置能够通过在发动机停止后通过维持用于压缩冲程喷射的足够的燃料压力来增加执行发动机自动启动之后的压缩冲程燃料喷射的频率 自动停止功能。 当立即自动停止标志为“ON”时,控制装置将电磁溢流阀的控制占空比设定为100(%),以提高紧接在自动停止之前的燃料压力。 结果,在发动机停止之后,燃料压力从高压开始下降,使得在燃料压力降低到使得不可能在燃烧室内进行适当的燃料喷射之前的较长时间 压缩冲程。 因此,紧接在自动启动之后执行压缩冲程喷射的可能性增加,并且执行压缩冲程喷射的频率增加。 因此,可以实现燃料经济性等的充分改善。
    • 3. 发明授权
    • Fuel supplying apparatus and method for internal combustion engine
    • 用于内燃机的燃料供应装置和方法
    • US06336445B1
    • 2002-01-08
    • US09632786
    • 2000-08-04
    • Daichi YamazakiNaoki KurataMasanori Sugiyama
    • Daichi YamazakiNaoki KurataMasanori Sugiyama
    • F02M3704
    • F02M59/102F02B2075/125F02B2275/18F02D41/3845F02M59/366F02M63/0225Y02T10/123
    • In a high-pressure fuel pump of a fuel supplying apparatus, the amount of movement of a plunger (cam speed) occurring during a unit-angle rotation of a cam changes in accordance with the phase of the cam. The amount of fuel delivered from the high-pressure fuel pump is controlled by changing the start timing of closure of an electromagnetic spill valve. However, the amount of fuel delivered is greatly affected by the cam speed at the start of closure of the spill valve. Therefore, for example, a cam profile of the cam is set such that the closure start timing of the electromagnetic spill valve that provides a maximum amount of fuel that needs to be delivered for fuel injection is placed within a predetermined cam angle range in which the change in the cam speed with respect to changes in phase of the cam is constant. Therefore, the changing of the closure start timing of the electromagnetic spill valve for the purpose of adjusting the amount of fuel delivered is performed within the predetermined cam angle range.
    • 在燃料供给装置的高压燃料泵中,在凸轮的单位角旋转期间发生的柱塞(凸轮转速)的移动量根据凸轮的相位而变化。 通过改变电磁溢流阀的关闭的开始时间来控制从高压燃料泵输送的燃料量。 然而,输送的燃料量受溢流阀开始关闭时的凸轮转速的影响很大。 因此,例如,设置凸轮的凸轮轮廓,使得提供需要输送用于燃料喷射的最大量的燃料的电磁溢流阀的闭合开始正时被放置在预定的凸轮角度范围内,其中 相对于凸轮相位变化的凸轮转速的变化是恒定的。 因此,在规定的凸轮角度范围内进行用于调节输送量的电磁溢流阀的闭合开始时刻的变更。
    • 5. 发明授权
    • Fuel pump control apparatus
    • 燃油泵控制装置
    • US06314945B1
    • 2001-11-13
    • US09612305
    • 2000-07-07
    • Masanori SugiyamaDaichi YamazakiNaoki Kurata
    • Masanori SugiyamaDaichi YamazakiNaoki Kurata
    • F02M3900
    • F02D41/3845F02B2075/125F02B2275/18F02D41/08F02D41/3809F02D41/406F02M59/366F02M63/0225Y02T10/123Y02T10/44
    • During the idling state, the number of times of injecting fuel per performance of the fuel delivery from a high-pressure fuel pump is decreased or increased. If the number of times of injecting fuel per performance of the fuel delivery is decreased, the amount of fuel that needs to be delivered by one performance of the fuel delivery is reduced, so that the timing of starting to close an electromagnetic spill valve can be delayed. Therefore, the lift of a plunger for 1° rotation of a cam (i.e., cam speed) at the time of closure of the electromagnetic spill valve decreases, so that the force applied from fuel to the electromagnetic spill valve in the valve closing direction decreases. If the number of times of injecting fuel per performance of the fuel delivery is increased, the noises produced at the time of closure of the electromagnetic spill valve increase because the timing of starting to close the spill valve is advanced to increase the amount of fuel delivered by one performance of the fuel delivery. However, the number of times of closing the electromagnetic spill valve during a predetermined period decreases, so that the number of occurrences of the valve closure noises decreases.
    • 在怠速状态下,从高压燃料泵执行燃料输送的燃料喷射次数减少或增加。 如果每次执行燃料输送喷射燃料的次数减少,则通过燃料输送的一次性能需要输送的燃料量减少,使得开始关闭电磁溢流阀的时间可以是 延迟。 因此,在关闭电磁溢流阀时凸轮1°旋转的柱塞(即凸轮转速)的提升减小,使得从关闭方向的燃料向电磁溢流阀施加的力减小 。 如果每次执行燃料输送喷射燃料的次数增加,则在电磁溢流阀关闭时产生的噪声增加,因为开始关闭溢流阀的时间被推进以增加输送的燃料量 通过一次表现燃料输送。 然而,在预定时间段期间关闭电磁溢流阀的次数减少,使得阀关闭噪声的发生次数减少。